This thesis mainly discussed the fabrication and the characterization of the gallium oxide- zinc oxide diode deposited on the polycrystalline silicon substrate. The first part of thesis was about the principles of the deposition equipment and the mechanism of deposition. The second part of thesis focused on the electrical and optical characterization of the devices. The structure of the device was ITO/NiO/Ga2O3/ZnO/Ga2O3/ZnO / Ga2O3/ITO. Energy dispersion X-ray spectrometer (EDX) and X-ray diffraction (XRD) were used to analyze the ratio of elements and the crystal orientation. From EDX measurement, the elements, gallium oxide, zinc oxide, indium tin oxide did exist in the device. The XRD measurement found that zinc oxide exhibits a preferred orientation of [h,k,l]=[0,0,2], with an average grain size of 25.33nm. In the chapter of electrical and optical measurements, the electric characteristic curve of the device showed a diode curve under forward bias. After a backward bias was applied, the curve exhibited a phenomenon of negative differential resistance under the second forward bias. The main wavelength on optical spectrum was 500nm. As the thickness of ITO changed, the variation of the peaks in spectrum were investigated. In the end, the angle-dependent electroluminescence was also investigated. As the measured angles increased, blue shifts were found in the spectrum, which explained the colors that human’s eyes observed would be influenced by observer’s angle.